JPH1074330A - Optical recorder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely record data by controlling the recording power by the detection output of a first detecting means which detects the light quantity of reflected light beams and the detection output of a second detecting means which directly detects the light quantity of radiated light beams. SOLUTION: During a recording operation mode, a writing pulse generating circuit 24 gives writing pulses Dwr, which are synchronized to data clocks CK, to a laser driving circuit 20 in accordance with recording data. In the optical disk recording and reproducing device, a minimum pulse interval segment Ts of the pulses Dwr is set equivalent to a three channel clock period. Moreover, first sampling pulses SP1 and second sampling pulses SP2 are formed by the clocks CK corresponding to the channel clocks and the recording data synchronized to the clocks CK.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an optical recording apparatus for recording information by irradiating an optical recording medium with a light beam to form pits.

[0002]

2. Description of the Related Art In recent years, disk-shaped recording media such as optical disks and magneto-optical disks utilizing an optical or magneto-optical signal recording / reproducing method have been developed and are being supplied to the market. These disc-shaped recording media can be read-only memory (ROM), such as a so-called compact disc (CD), or the user can write data once. Known are write-once-type (write-once) recording media and recording media on which data can be rewritten (so-called overwrite) such as magneto-optical disks.

In an optical disk recording / reproducing apparatus for writing / reading data to / from the write-once type or overwritable optical disk, laser drive is performed while rotating the optical disk at a constant angular velocity or linear velocity by a spindle servo. A focus servo based on the detection output of the photodetector in an optical head that incorporates a laser diode that outputs a light beam for recording and reproducing information when driven by a circuit, and a photodetector that detects reflected light of the light beam irradiated on the optical disc. Data is recorded and reproduced by scanning a recording track of the optical disk with a light beam by applying a tracking servo.

Further, in the optical disk recording / reproducing apparatus for recording / reproducing information by scanning a recording track with a light beam as described above, if the beam power of the light beam for scanning the input recording track in the recording mode is too small, the information cannot be reliably recorded. If the beam power of the light beam that scans the recording track during the reproduction mode is too large, there is a possibility that the information recorded on the recording track may be seriously affected. For example, as disclosed in Japanese Patent Application Laid-Open No. 53-46633, the intensity of a light beam for recording and reproducing information, that is, the amount of light is detected, and feedback control of a laser diode driving circuit for outputting the light beam is performed. Then, the so-called APC servo loop for keeping the beam power of the light beam constant is switched according to various operation modes, So that properly switch the word.

[0005]

By the way, in an optical recording / reproducing apparatus for recording / reproducing information on / from an optical recording medium by scanning a recording track with a light beam, the light reflected by the optical recording medium is reflected by an optical head. Detecting and performing focus servo and tracking servo of the light beam based on the detected output, the reflected light from the optical recording medium is a pit formed in the recording tracking of the recording medium, ie, recording information. , The servo system may be affected by the pits.

In an optical recording / reproducing apparatus, a pit is formed by scanning a recording track on an optical recording medium with a recording light beam emitted from a laser diode pulse-driven in accordance with recording information in a recording mode. Information is recorded. As shown in FIG. 4, a pit P is actually formed after irradiating a recording light beam obtained by pulse-driving a laser diode with a recording pulse corresponding to the recording information. There is a time delay τ of about 300 to 400 ns before starting, and the detection output waveform of the reflected light of the recording light beam applied to the recording track is also modulated with the above time delay. Therefore, in the conventional servo system which operates based on the detection output of the reflected light of the recording light beam, the automatic gain control circuit having a large dynamic range is largely dependent on the pattern of the pit formed on the recording track, that is, the recording information. It was necessary to provide.

In particular, the degree of modulation by a recording information signal is 60%, as in a write-once optical disk having a dye-based optical recording medium layer.
In an optical recording / reproducing apparatus using an optical recording medium as high as a compact disk, the effect of the pattern of pits formed on a recording track in the recording operation mode on the operation of the servo system becomes a problem.

In an optical disk on which a pre-groove (guide groove) for tracking servo is formed, the pre-groove is wobbled (oscillated) as in the so-called ATIP (absolute time in pre-groove) format. Japanese Patent Application Laid-Open No. 63-87665 discloses a method in which the wobbling frequency component is used as a carrier to record additional sub-information, for example, absolute time information.
However, when the ATIP format is adopted, the reflected light detected by the optical head during the information recording is modulated with the time delay τ as described above. There is a problem that the absolute time information cannot be reproduced well. More specifically, the level uncertainty caused by reading the recorded pits generates a low-frequency spectrum component, which greatly lowers the C / N of the wobbling frequency component. This is because the error rate is extremely deteriorated at the time of reproduction.

In view of the above, the present invention provides an optical recording / reproducing apparatus using an optical recording medium having a high degree of modulation by a recording information signal in a recording operation mode.
An object of the present invention is to set an optimum recording light amount so that data can be reliably recorded.

[0010]

According to the present invention, there is provided an optical recording apparatus comprising: a light source for irradiating a light beam for forming pits on an optical recording medium to record information; Pulse driving with the light level of the recording level,
A driving unit for driving the light source with a light amount lower than the recording level between the recording data and a first light amount detecting a light amount of a light beam reflected from the optical recording medium of the light beam irradiated by the light source; Detecting means, a second detecting means for directly detecting the amount of light beam emitted from the light source, and pits corresponding to the recording data are actually formed on the optical recording medium by the recording light beam. Based on the detection output by the first detection means and the detection output by the second detection means in a predetermined period between,
Control means for controlling the recording level of the light source.

In this optical recording apparatus, the detection output by the first detecting means for detecting the amount of the light beam reflected by the light source from the optical recording medium and the light amount of the light beam emitted from the light source are determined. The recording level of the light source, that is, the recording power, is controlled based on the detection output by the second detection means for directly detecting the light source.

[0012]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing an optical disk 1 formed of a write-once optical recording medium, which is rotated at a constant linear velocity by a spindle motor 2 so that an optical head 10 drives a recording track of the optical disk 1 using a laser. 1 shows a configuration of a recording / reproducing system in a case where the present invention is applied to an optical disk recording / reproducing apparatus which optically records and reproduces digital data in a data format conforming to the CD standard by scanning with light.

The optical disc 1 employs a so-called ATIP format, in which a pregroove for tracking servo is wobbled and its wobbling frequency component is modulated, whereby absolute time information is recorded in advance as auxiliary sub-information. I have.

In this optical disk recording / reproducing apparatus, the optical head 10 is driven by a laser drive circuit 20 to emit a laser beam for recording and reproducing digital data, and a laser beam emitted by the laser diode 11. And a photodetector 13 for detecting the reflected light of the laser light emitted from the laser diode 11 from the optical disk 1. By scanning a recording track of the optical disc 1 with a laser beam emitted by the laser diode 11, information is recorded and reproduced on the recording track.

The recording system of the optical disk recording / reproducing apparatus is as follows.
An encoder 23 for converting digital data D _IN to be recorded supplied from an input terminal 21 via an input / output interface 22 into a recording data sequence having a data format conforming to the CD standard, and a write pulse corresponding to the recording data sequence; Is provided to the laser drive circuit 20, and the laser drive circuit 20 drives the laser diode 11 of the optical head 10 with a write pulse corresponding to the recording data sequence by pulse driving. The digital data D _IN is recorded on the recording track of the optical disc 1 as the recording data string having a data format conforming to the CD standard.

The reproducing system of the optical disk recording / reproducing apparatus includes a decoder 32 to which a detection output of the photodetector 13 of the optical head 10 is supplied via a reproducing amplifier circuit 31 and the like. With respect to the detection output of the reflected light from the recording track of the optical disc 1 scanned by the laser beam to be reproduced, the reproduction data D _OUT obtained by performing the decoding process corresponding to the encoder 23 of the recording system by the decoder 32 is output. The signal is output from the terminal 40.

Further, the control system of the optical disk recording / reproducing apparatus includes a spindle servo circuit 34 to which a detection output of the photodetector 13 of the optical head 10 is supplied via a reproduction amplifier circuit 33. The rotational speed of the optical disk 1 is detected from a wobbling signal of the wobbled pre-groove of the optical disk 1 based on the detection output by the photodetector 13, and the motor drive circuit 3 of the spindle motor 2 is feedback-controlled to thereby control the optical disk 1. 1
Spindle servo control is performed so as to keep the rotation at a constant linear velocity.

The control system of the optical disk recording / reproducing apparatus includes a head servo circuit 35 to which a detection output of the photodetector 13 of the optical head 10 is supplied via a reproducing amplifier circuit 33. Based on the detection output by the photodetector 13,
Error information such as a focus error and a tracking error of a laser beam applied to the optical disc 1 is detected, and a two-axis actuator (not shown) for driving an objective lens of the optical head 10 is controlled based on the error information. Head servo control such as servo and tracking servo is performed.

Further, the control system of the optical disk recording / reproducing apparatus includes an ATIP decoder 36 to which a detection output from the photodetector 13 of the optical head 10 is supplied via the reproduction amplifier circuit 33.
The absolute time information D _ATIP is read from the wobbling signal of the optical disk 1 based on the wobbled pregroove based on the detection output. The absolute time information D _ATIP obtained by the ATIP decoder 36 is supplied to a system controller 37.

The system controller 37 has an analog / digital conversion function. The output of the photodetector 13 of the optical head 10 detected by the photodetector 13 is supplied to the analog input port of the system controller 37 from the reproduction amplifier circuit 33 and the optical head 10 Laser diode 11
The output of the photodetector 12 for detecting the laser light emitted by the photodetector 12 is supplied via a preamplifier 38. Note that a so-called back monitor photodetector may be used instead of the photodetector 12.

The write pulse generating circuit 24
The operations of the laser drive circuit 20 and the like are controlled by the system controller 37 as follows.

That is, in the recording operation mode, as shown in FIG. 2, the write pulse generation circuit 24 causes the write pulse generation circuit 24 to generate a write pulse D _WR synchronized with the data clock CK corresponding to the recording data. This is given to the laser drive circuit 20. Further, the write pulse generation circuit 24 performs pulse driving of the laser diode 11 of the optical head 10 by the laser drive circuit 20 in accordance with the write pulse D _WR to generate a recording light beam emitted by the laser diode 11. outputs the first sampling pulse SP ₁ at a predetermined timing t ₁ in time period T _D of the write pulse D _WR after a predetermined time has elapsed τ until the pit P on the optical disk 1 is actually formed Te, outputting a predetermined timing t ₂ at the second sampling pulse SP ₂ in the minimum pulse interval period T _S of the optical recording on the disc 1 the pits P the write pulse D _WR after completion of forming of.

[0024] Here, in this optical disk recording and reproducing apparatus for recording and reproducing optically digital data in a data format conforming to specifications of the CD, the minimum pulse interval period T _S of the write pulse D _WR are three channel clock periods Is set to correspond to In the write pulse generation circuit 24, the first sampling pulse SP ₁ and the second sampling pulse SP
₂ can be formed from a data clock CK corresponding to the channel clock and recording data synchronized with the data clock CK.

Further, the laser driving circuit 20 is configured to pulsed light quantity L _A recording level laser diode 11 of the optical head 10 in response to the write pulse D _WR, the period between each write pulse D _WR among T ₀ is a high frequency driving the laser diode 11 at a light volume L _B of the playback level.

The pulse driving of the laser diode 11 by the laser drive circuit 20 causes the recording pit P corresponding to the write pulse _DWR to be written on the optical disc 1 by the recording light beam emitted by the laser diode 11.
Are formed with a predetermined time delay τ, whereby the recording data is recorded.

In this embodiment, the system controller 37 outputs the detection output from each of the photodetectors 12 and 13 of the optical head 10 to a first sampling pulse S formed by the write pulse generation circuit 24.
And sampled at P _1, on the basis of the sampling value, and controls the operation of the laser drive circuit 20, automatically adjusts the light amount L _A of the laser diode 11 recording level of the next of the optical head 10 Control.

[0028] That is, during a period in which the laser diode 11 is formed recording pit P is actually on the optical disc 1 by the recording light beam emitted, and the light amount L _A of the laser beam the laser diode 11 is radiated , the difference between the light amount L _B of the reflected light by the above optical disc 1 [L _a -
L _B] or a ratio [L _B / L _A] is to adjust the light amount L _A of the laser diode 11 recording level of the optical head 10 to a predetermined value, modulated reflected light of the light beam of a predetermined so that the optimum writing light quantity L _a modulated in degrees.

Further, the system controller 37 includes:
A detection output of the photodetector 13 of the optical head 10 is sampled by a _second sampling pulse SP2 formed by the write pulse generation circuit 24, and a recording pit P is formed on the optical disk 1 based on the sampling value. as the light amount L _D of the reflected light in the predetermined section T _S after completion of a predetermined amount, and controls the operation of the laser drive circuit 20, the laser during T ₀ between each write pulse D _WR diode 11 is performing a so-called APC control to maintain the amount of light L _B of the reproduction level of the light beam emitted in a predetermined light amount.

Here, as shown in FIG. 3, for example, as shown in FIG. 3, the laser drive circuit 20 includes differential transistors 20A and 20A in which the laser diode 11 is connected to one collector.
B pair, a first variable current source 20C commonly connected to the emitters of the differential transistors 20A and 20B pair, the laser diode 11 and the differential transistor 20C.
A, a second variable current source 20E and the like connected via a choke coil 20D to a connection point with one collector of the pair of A and 20B, and the system controller 37 controls the current of the first variable current source 20C. by controlling the value, the automatic setting control of the write light intensity L _a is made, APC control is performed by controlling the current value of the second variable current source 20E.

Further, the spindle servo circuit 34,
Head servo circuit 35 and the ATIP decoder 35 incorporates a sampling means for sampling a detection output of the photodetector 13 of the optical head 10 at a second sampling pulse SP ₂ which is formed by the write pulse generating circuit 24, based on the detection output of the photo detector 13 in the period T _S after completion of formation of the recording pits P with respect to the optical disk 1, the above-described spindle servo control operation, a forming processing operation of the head servo control operation and absolute time information D _ATIP performed ing.

The detection output obtained by the photodetector 13 of the optical head 10 during the section T _S after the formation of the recording pits P on the optical disc 1 is detected as reflected light from a non-recording portion between the recording pits P. Therefore, there is no influence of the recording pits P, that is, the effect of the recording data.

Therefore, in this embodiment, by using the detection output obtained by the photodetector 13 of the optical head 10 during the section T _S , the APC control operation by the system controller 37 and the spindle servo circuit 34 The spindle servo control operation, the head servo control operation by the head servo circuit 35, the formation processing operation of the absolute time information D _ATIP by the ATIP decoder 35, and the like can be performed with high accuracy and reliability. High recording operation can be performed.

[0034]

In the optical recording apparatus according to the present invention, the detection output by the first detection means for detecting the amount of the light beam reflected by the light source from the optical recording medium and the light output from the light source Since the recording level, that is, the recording power of the light source is controlled based on the detection output by the second detection means for directly detecting the light amount of the light beam, it is affected by the pits formed on the optical recording medium according to the recording data. Thus, it is possible to accurately detect the reflected light amount that decreases, and it is possible to detect that the pits are surely formed by reducing the reflected light amount. Thereby, it is possible to set the optimum recording light amount.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a recording / reproducing system of an optical disc recording / reproducing apparatus to which the present invention is applied.

FIG. 2 is a time chart for explaining an operation in a recording operation mode in the optical disk recording / reproducing apparatus.

FIG. 3 is a circuit diagram showing a configuration example of a laser drive circuit used in the optical disk recording / reproducing apparatus.

FIG. 4 is a waveform diagram showing a state of a change in the amount of reflected light from the optical disk when pits are formed on the optical disk with a light beam.

[Explanation of symbols]

Reference Signs List 1 optical disk, 10 optical head, 11 laser diode, 12 and 13 photodetector, 20 laser drive circuit, 24 write pulse generation circuit, 34 spindle servo circuit, 35 head servo circuit, 36 ATI
P decoder, 37 system controller

Claims (1)

[Claims] 1. A light source for irradiating a light beam for recording information by forming pits on an optical recording medium, and a pulse driving of the light source at a recording level in accordance with recording data. Driving means for driving the light source with a light amount lower than the recording level during recording data; and first detecting means for detecting the light amount of a light beam reflected from the optical recording medium of a light beam emitted by the light source. Second detecting means for directly detecting the light amount of the light beam emitted from the light source; and a predetermined detecting means during which pits corresponding to the recording data are actually formed on the optical recording medium by the recording light beam. Control means for controlling a recording level of the light source based on a detection output by the first detection means and a detection output by the second detection means during a period. The optical recording apparatus according to claim.